Enteral nutritional composition having balanced amino acid profile

ABSTRACT

An enteral nutritional composition comprising 4-30% of a lipid component, 65-80% of a carbohydrate component, and 16-25% of a protein component, based on total caloric content is disclosed. This protein component of this composition comprises, by weight, 14-30% glutamine and 5-33% arginine. The non-protein calorie to grams of nitrogen ratio ranges from 150:1 and 80:1.

BACKGROUND OF THE INVENTION INFORMATION DISCLOSURE

In general, enteral nutrition compositions may be administered orally or by tube feeding. Numerous enteral formulations are utilized in patients with a hypermetabolic state as effected by burns, trauma, surgery and in patients with malnutrition, chronic illness and in disorders resulting from prolonged periods of reduced oral intake resulting from cerebral vascular accidents or a comatose state.

The enteral compositions have provided benefits and advantages to parenteral nutrition. Elemental diets are often indicated for patients who have a reduced gastro-intestinal absorptive surface or exocrine pancreatic insufficiencies. A few of the clinical indications for elemental formulas include: pancreatitis, short gut syndrome, radiation enteritis, GI cutaneous fistulas and Crohn's disease. For some patients, they may also be useful as a transition feeding or even replace total parenteral nutrition (TPN). This recommendation is based on recent clinical findings that demonstrate elemental diets when compared to TPN result in fewer complications, reduced patient length of stay in the ICU and are less expensive. Elemental diets are composed of low molecular weight nutrients and require minimal digestive and absorptive capability. The protein source consists of free amino acids and contains essential and non-essential amino acids. Carbohydrate is typically composed of glucose and hydrolyzed cornstarch (maltodextrin) while the fat content is usually low and primarily consists of essential fatty acids. These diets have minimal residue because of the efficient absorption of the nutrients provided in an elemental form. Most practitioners find that initiating feeding at full strength using low delivery rates is well tolerated, even though elemental formulas are, by nature, hyperosmolar (greater than 300 mOsm/Kg H₂ O). However, in selected cases, initiating feeding with a dilute formula may be preferred. Elemental diets are often administered by needle catheter jejunostomy or endoscopically placed percutaneous jejunal tubes (PEJ) or nasoenteric small bowel feeding tubes in the critically ill patient.

ISOCAL is an enteral formulation by Mead Johnson which utilizes casein and soy for its protein source, glucose oligosacchrides for its carbohydrate source and soy oil and medium chain triglycerides (MCT) oil for its lipid source.

OSMOLITE is manufactured by Ross and utilizes as its protein source casein and soy, corn starch for its carbohydrate source and fifty percent MCT oil, forty percent corn oil and ten percent soy oil for its lipid source.

ENSURE is manufactured by Ross and utilizes casein and soy for protein source, corn starch and sucrose for a carbohydrate source and corn oil for a lipid source.

SUSTACAL manufactured by Mead Johnson utilizes casein and soy for its protein source, corn syrup and sucrose for its carbohydrate source and soy oil for its lipid source.

ENSURE PLUS manufactured by Ross is a high protein, high calorie composition using soy and casein for its protein source, corn starch and glucose for its carbohydrate source and corn oil for its lipid source.

MAGNACAL manufactured by Sherwood Medical is a high density composition with 2.0 calories/ml. MAGNACAL utilizes casein for its protein source, corn syrup for its carbohydrate source and soy oil for its lipid source.

TRAUMACAL manufactured by Mead Johnson utilizes casein for its protein source, corn syrup and sucrose for its carbohydrate source and 70 percent soy bean oil and 30 percent MCT oil for its lipid source.

ISOTEIN HN is manufactured by Sandoz and utilizes lactalbumin for its protein source, maltodextrin for its carbohydrate source and soy oil and MCT oil for its lipid source.

VIVONEX T.E.N. is manufactured by Sandoz and comprises branched chain amino acids, glutamine and arginine as the protein source, safflower oil as the lipid source, and maltodextrin and modified starch as the carbohydrate source.

IMPACT is manufactured by Sandoz and comprises arginine and caseinates as the protein source, maltodextrins as the carbohydrate, and menhaden oil and structured lipids as the lipids source.

U.S. Pat. No. 4,752,618 describes a dietary supplement and method of minimizing infections therewith, comprising omega-3 and omega-6 fatty acid such as safflower oil and menhaden oil.

U.S. Pat. No. 4,847,296 describes triglyceride preparations for enteral administration to prevent catabolism and increase protein synthesis in subjects undergoing severe metabolic stress.

U.S. Pat. No. 5,053,387 describes enteral compositions for treating traumatic injury comprising an intact protein (from lactalbumin egg albumen or whey and the like), arginine, carbohydrate (glucose polymers, disaccharides, starches and the like), lipid comprising omega-3 fatty acids of fish oil, and necessary vitamins and minerals.

U.S. Pat. No. 5,231,085 describes enteral compositions comprising arginine, ornithine, a nucleobase, omega-3 polyunsaturated fatty acids, and omega-6 polyunsaturated fatty acids.

Other background references on enteral feeding compositions and methods include:

Alexander, J. W., MacMillan, B. G., Stinnett. J. P. et al: Beneficial effects of aggressive protein feeding in severely burned children. Ann. Surg. 192:505-517, 1980;

Dominioni, L., Trocki, O., Mochizuke, H., et al: Prevention of severe postburn hypermetabolism and catabolism by immediate intragastric feeding. J. Burn Care Rehab. 5:106-112, 1984;

Bower, R. H., Muggia-Sullam, M., Vallgren, S., et al: Branched chain amino acid entriched solutions in the septic patient. A randomized. prospective trial. Ann. Surg. 203:13-20, 1986;

Cerra, F. G., Siegal, J. H., Coleman, B., et al: Septic autocannibalism: A failure of exogenous nutritional support. Ann. Surg. 192:570-580, 1980;

Cerra, F. B., Upson, D., Angelico, R., et al: Branched chains support post-operative protein synthesis. Surgery 92:192-198, 1982;

Cerra, F. B. Shronts, E. P., Konstantinides, N. N., et al: Enteral feeding in sepsis: A prospective randomized, double-blind trial. Surgery 98:632-638, 1985;

Law, D. K., Durdick, S. J. and abdon, N. I.: The effect of dietary protein depletion on immuno competence: the importance of nutritional repletion prior to immunologic induction. Ann. Surg. 179:168-173, 1974;

Dominioni, L., Trocki, O., Fang, C. H., and Alexander, J. W.: Nitrogen balance and liver changes in burned guinea pigs under going prolonged high protein enteral feeding. Surg. Forum 34:99-101, 1983;

Food and Nutrition Board, National Research Council, Recommended Dietary Allowances, 10th edition. Washington, D.C., National Academy of Sciences, 1989; and

Donnelly, M. and Scheffler, I. E.: Energy metabolism in respiratory deficient and mild type Chinese hamster fibroblasts in culture. J. Cell Physical. 89:39-51, 1976.

Improvements to the enteral feeding compositions are continually sought to provide greater patient benefits. It is the object of the present invention to provide an improved enteral nutritional composition that is nutritionally balanced and which provide complete nutritional support for critically ill patients.

SUMMARY OF THE INVENTION

The present invention relates to an enteral nutritional composition comprising based on total caloric content of said composition,

a) from 4 to 30% lipid component,

b) from 65 to 80% carbohydrate component, and

c) from 16 to 25% protein component, said protein component comprising based on the free base 14 to 30% by weight glutamine and 5 to 33% by weight arginine, said glutamine and arginine being in free base form, ingestible salt form, partially hydrolyzed protein form or intact protein form,

wherein said composition has a nonprotein calorie to grams of nitrogen ratio ranging from 150:1 to 80:1.

The composition can be in the form of a solid powder (which is subsequently mixed with water or other suitable liquid carriers) or in the form of a ready-to-use homogenous aqueous liquid. The composition is useful in the dietary management of stress, trauma, burns, malnutrition, sepsis, inflammatory bowel disease, cancer, intestinal atresia, pancreatitis, fistula, short-gut syndrome, acquired immunodeficiency syndrome, cachexia, and other stressed and catabolic conditions.

It is a further object of this invention to provide an improved enteral feeding composition having higher total nitrogen, lower ratio of nonprotein calorie to gram of nitrogen ratio and improved amino acid profile. It is another object of this invention to provide improved enteral feeding composition containing carnitine and taurine and the resultant benefits therefrom. It is an even further object of this invention to provide a method of treating stressed catabolic patients by enteral administration of the improved feeding compositions of this invention.

DETAILED DESCRIPTION

This invention relates to improved enteral nutritional compositions which are useful in treating stressed and catabolic conditions. The enteral nutritional composition of this invention comprises, based on total caloric content of said composition,

a) from 4 to 30% lipid component,

b) from 65 to 80% carbohydrate component, and

c) from 16 to 25% protein component, said protein component comprising based on the free base 14 to 30% by weight glutamine and 5 to 33% by weight arginine, said glutamine and arginine being in free base form, ingestible salt form, partially hydrolyzed protein form or intact protein form,

wherein said composition has a nonprotein calorie to grams of nitrogen ratio ranging from 150:1 to 80:1.

The composition comprises based on total calories from 4-30% (preferably about 6%) lipid component. Adequate fat intake is important as a source of energy, essential fatty acids and carrier of fat soluble vitamins. Relatively low levels of fat (i.e., <3% calories) may be inadequate on a long-term basis (i.e., >2 weeks) to prevent essential fatty acid deficiency. Suitable lipids for use in the present invention include, any of the conventional saturated and unsaturated fatty acids, glycerides and other nutritionally acceptable fat sources known in the art, such as animal oils, fish oils, vegetable oils and synthetic lipids. Lipid sources include, for example, medium chain triglycerides, corn oil, soybean oil, peanut oil, olive oil, safflower oil, sunflower oil, cotton oil, canola oil and the like. The most preferred lipid sources are safflower oil, canola oil and soybean oil.

Preferably, the lipid component of the composition of this invention comprises, based on total caloric content of the composition, 4 to 10% of long chain fatty acids having about 14-24 carbon atoms and 0 to 20% of medium chain triglycerides having fatty acid chains of about 6-12 carbon atoms.

The lipid component preferably comprises omega-6 polyunsaturated fatty acids (i.e., linoleic acid) at 2-4% of total calories and omega-3 polyunsaturated fatty acids (i.e., linolenic acid) at 0.2-1.0% of total calories.

The level of total lipid in the preferred composition is 4-30% (preferably about 6%) of calories which provides about 6.7 grams of lipid per liter. This level ensures adequate levels of essential fatty acids in the diet, particularly for those patients who receive smaller volumes (fewer calories) of formula. The use of canola or soybean oil allows for the addition of the omega-3 fatty acid, alpha-linoleic acid. This level will meet the nutrient needs of alpha-linolenic and linoleic acid and limit the possible negative effects of high fat formulas which include malabsorption, diarrhea and suppression of the immune system.

The composition of the invention comprises, based on total caloric content, from 65 to 80% carbohydrate component, preferably about 76%. Suitable carbohydrate sources for the carbohydrate component can be those conventionally known and used in enteral feeding compositions. Sources of carbohydrate include, for example, cereals, vegetables, starches, glucoses, disaccharides, maltodextrins and the like. The preferred carbohydrates are maltodextrins and modified or hydrolyzed starches. The most preferred compositions of this invention in liquid form comprises about 190 grams of carbohydrate per liter.

The composition of the invention comprises, based on total caloric content, from 16 to 25% protein component, preferably about 18%. Suitable protein sources for the protein component can include conventional sources of intact protein, protein hydrolysates and crystalline amino acids used in enteral feeding compositions such as, for example, casein, soy, lactalbumin, egg albumen, whey and the like. The protein component of the claimed composition comprises based on free base 14 to 30% (preferably 22-23%) by weight glutamine and 5 to 33% (preferably 11-12%) by weight arginine. The glutamine and arginine can be in free base form, ingestible salt form, partially hydrolyzed protein form or intact protein form. Preferably, the composition comprises, based on total caloric content of the composition, arginine ranging from 1 to 6% based on the free base.

The constituents of protein are amino acids. All amino acids are obtained directly or indirectly from dietary protein or amino acids. Furthermore, the amino acids are utilized concomitantly for synthesis of tissue protein. No protein is stored in the body. There are two kinds of amino acids. Essential amino acids must be supplied by diet, where as nonessential amino acids can be produced by the body. Of the 22 identified amino acids, 9 are considered essential for infants and 8 have been designated essential for children and adults. Essential amino acids are not more important than non essential amino acids in the metabolic process. The distinction between the two protein groups is the necessity for dietary sources of essential amino acids. Other nutrients can be omitted from the diet of a well-nourished person and have little or no immediate effect on growth or appetite. Omission of a single amino acid from the diet or consumption of a diet with an imbalanced amino acid pattern results immediately in failure of the body to use all other amino acids except as an energy source. Dietary proteins vary greatly in amino acid composition.

Those proteins possessing an assortment of essential amino acids most nearly matching the body's protein requirements are considered to be of the highest biological value and will meet normal protein synthesis needs. Proteins derived from animal origin (especially eggs and milk) have the highest biological value, but vegetable protein foods can be combined in such a way that the overall amino acid composition of the mixture has a nutritional value comparable to that of "good animal protein". Proteins that have amino acid profiles with high biological value will meet normal protein syntheses needs. Radical alteration in amino acid intake, particularly if the concurrent energy intake is marginal, can result in a compromised environment for protein synthesis. The proportion of essential amino acids in total protein should be at least about 40% in order to promote tissue restitution.

The composition of this invention has maintained its ratio of essential to nonessential amino acid even though arginine and glutamine have been added. This critical balance has been maintained through selected and careful calculations of each amino acid and has allowed for an amino acid profile which is considered to be of high biological value.

The amount and type of protein is vital to the critically ill patient. Attention should be paid to the amino acid composition, nitrogen needs as they relate to energy needs, and the metabolic changes of these patients. In general, protein requirements are elevated post-injury due to increased losses and greater needs for anabolism and tissue repair. Studies have shown that enteral fortification employing sufficient quantities of protein can accelerate the synthesis of visceral proteins and promote positive nitrogen balance and host defense factors.

Protein needs are tied to energy needs. The typical American diet reflects a nonprotein calorie (NPC) to grams of nitrogen (N) ratio of approximately 200 to 300:1, and the RDA is 0.8 gm/kg of body weight per day. The recovery from injury or illness is a dynamic process that varies among individuals. The metabolic response is a result of several factors, including the individuals previous state of health, the extent of the injury, the type of surgical procedure required, and the type and extend of complications. Recovery also depends on the nutritional status of the individual. Because caloric expenditures and nitrogen excretion are effected in parallel to stress, both the caloric intake and nitrogen content of the diet are examined together. Precise recommendations for protein allowance in critical care can vary and the present composition has NPC:N ranging from 150:1 to 80:1, depending on degree of protein depletion and severity of injury. The composition of this invention has increased its total nitrogen content (% of calories) and lowered its NPC:N. The nitrogen content of the composition can be calculated or measured using a variety of techniques such as described in Proteins--A Guide to Study by Physical And Chemical Methods, R. Haschemeyer, et al., John Wiley & Sons, p. 51, (1973) the disclosure of which is herein incorporated by reference.

Most enteral formulas use hydrolyzed cornstarch as the carbohydrate source. The degree of hydrolysis contributed to the formulas' osmolality, severeness and digestibility. The carbohydrate source in the preferred compositions of this invention comprise 96% hydrolyzed cornstarch and 4% modified starch. The preferred amount of carbohydrate is about 190 grams per liter providing about 76% of the total calories. The relatively lower carbohydrate source allows for increased levels of nitrogen and yet maintain a "moderate osmolality". The carbohydrate source is preferably free from lactose, (which may be a problem in the critically ill due to lactose intolerance) and preferably contains no sucrose, fructose or dietary fiber.

Arginine is included in the compositions of this invention although it is classified as a nonessential amino acid. It is not considered to be an essential dietary constituent for humans in the normal, unstressed human; the urea cycle provides sufficient arginine for maintenance. However, endogenous biosynthesis of arginine may not be sufficient for maximal tissue regeneration or positive nitrogen balance in trauma or stress. Dietary arginine enrichment may diminish protein catabolism and hence, reduce urinary nitrogen excretion in trauma or stress and improve immune function.

The level of arginine in the preferred composition is about 1-6% (more preferably about 2%) of calories providing about 5 grams per liter. The arginine level is based on experiments (for example, using a third degree 30% body surface area burn model in guinea pigs) which demonstrated that diets containing about 2% arginine increased survival, improved delayed hypersensitivity as examined by dinitroflurobenzene, and heightened local bacterial containment as assessed by the size of the pustules after intradural staphylococcal injections. It has also been shown that plasma arginine concentrations had a high correlation with a number of parameters indicating resistance to infection, such as total protein, albumin, transferrin, C3 levels and opsonic index in severely burned children. Studies of surgical patients found that supplemental arginine significantly enhanced lymphocyte blastogeneses and increased CD4 phenotype (% T cells) postoperatively. The beneficial effect of arginine on the immune system appeared distinct from its more moderate effect on nitrogen balance.

Glutamine is utilized at a high rate by the intestinal cells in the basal state, while its uptake and metabolism increase even further in the course of catabolic illness. It has been proposed that glutamine deficiency may develop in the course of many catabolic diseases and that this deficiency may have an important impact on intestinal mucosal integrity and function. Increased uptake of glutamine by the gut in response to stress and critical illness spares glucose as an intestinal fuel.

Aside from glutamine's role in the gut, there is some evidence of other benefits: spares glucose as an intestinal fuel; supports release of gluconeogenic precursors; provides a respiratory fuel for fibroblasts and lymphoid tissue. Patients who are at high risk of developing glutamine "deficiency" may benefit from the incorporation of glutamine at 14-30% by weight of the protein component of the enteral nutritional composition of this invention.

Novel nutrients, such as carnitine, which under certain conditions may become essential, have been added to formulas. The daily requirement is unknown for mammalian species including humans. Carnitine is synthesized in the liver from the essential amino acids lysine and methionine. If the liver is impaired, it is possible that synthesis of carnitine may also be impaired. Since all of the long chain fatty acids supplied in the diet must be transported into the mitochondria via a carnitine pathway before they can be oxidized to produce energy, adequate levels of carnitine in the tissue are essential for this metabolic step. It has also been shown that carnitine improved the energy metabolism of patients receiving TPN support, and it improved muscle mass of hospitalized patients given supplemental carnitine. The typical carnitine intake of healthy adults on normal diets average 29-47 mg per day with a range of 0.18 to 319 mg per day. The preferred compositions of the invention comprise about 180 mg of carnitine or about 0.03% to about 0.05% by weight based on free base of carnitine per 1800 calories; said carnitine being in free base form or ingestible salt form.

Taurine, important for normal retinal development and in the synthesis of bile salts, may be essential for infants, children and perhaps critically ill adults. Some studies of patients with cystic fibrosis have shown improved fat absorption, growth, and weight gain following taurine supplementation of 30 mg/kg/day. Typical daily taurine intake is estimated to fall within a range of 9-372 mg per day. The preferred composition comprise about 360 mg taurine per 1800 calories or, based on free base, 0.07 to 0.09% by weight taurin; said taurine being in free base form or ingestible salt form.

In enteral nutrition support there is clearly a balance which must be maintained for: (1) the need to infuse nutrients into the patient and (2) the need to ensure that tolerance, absorption, and utilization of those nutrients are achieved. While it is recognized that meeting nutrient needs in lower volumes of formula is desirable, the nature of elemental formulas is such that concentrating nutrients inherently increases osmolar load. Hypertonic enteral formulas, especially when tube fed, may cause nausea, vomiting, cramping, abdominal distention and diarrhea in sensitive patients. The main determinants of the osmolality of a formula are simple carbohydrates, electrolytes and amino acids. Based on clinical experience the compromise of achieving a "moderate osmolality" and feeding appropriately 1800 to 2000 milliliters and 1800 to 2000 calories per day is acceptable for the compositions of the present invention.

The compositions of the invention can be in the form of a solid powder which is subsequently mixed with juices or other aqueous liquid or other flavoring agents. The solid powder form preferably has a caloric content from about 3 to about 4 calories per gram of the composition. The compositions can also be in the form of a ready-to-use aqueous liquid which preferably has a caloric content of about 1 calorie per milliliter. The aqueous compositions of the invention preferably have an osmolality of about 630-690 mOsm per kilogram of water.

The enteral nutritional compositions of this invention may be administered via a nasogastric, nasointestinal, esophagostomy, gastrostomy, or jejunostomy feeding tube. Because of its homogeneity and low viscosity, small bore feeding tubes (16 gauge catheter or #5 French tube) may be used to optimize patient tolerance. The diet should be given at room temperature by continuous drip technique, or using a suitable infusion pump. At the 1 calorie per ml dilution, the composition supplies most of the daily fluid requirements. Additional fluids should be given when necessary to maintain hydration and adequate urine output.

The compositions can also be administered orally as a flavored drink served chilled over ice. A preferred composition of the invention based on solid weight is as follows:

    ______________________________________                                         INGREDIENT           AMOUNT (WT. %)                                            ______________________________________                                         MALTODEXTRIN         69.32                                                     L-GLUTAMINE          3.773                                                     MODIFIED FOOD STARCH 3.773                                                     L-LEUCINE            2.547                                                     L-ARGININE ACETATE   2.536                                                     SOYBEAN OIL          2.505                                                     MAGNESIUM GLUCONATE  1.729                                                     L-LYSINE ACETATE     1.486                                                     L-VALINE             1.273                                                     L-ISOLEUCINE         1.273                                                     CALCIUM GLYCEROPHOSPHATE                                                                            1.258                                                     L-PHENYLALANINE      1.078                                                     L-METHIONINE         0.9265                                                    CITRIC ACID          0.7755                                                    L-THREONINE          0.7114                                                    POTASSIUM CHLORIDE   0.5450                                                    L-TYROSINE           0.4569                                                    L-HISTIDINE          0.4528                                                    MONOHYDROCHLORIDE                                                              SODIUM CITRATE       0.4402                                                    L-ASPARTIC ACID      0.4192                                                    L-PROLINE            0.3878                                                    POTASSIUM CITRATE    0.3668                                                    SODIUM PHOSPHATE DIBASIC                                                                            0.2851                                                    L-TRYPTOPHAN         0.2587                                                    L-SERINE             0.2159                                                    CHOLINE BITARTRATE   0.2154                                                    L-ALANINE            0.1937                                                    GLYCINE              0.1886                                                    POTASSIUM SORBATE    0.1467                                                    POLYGLYCEROL ESTERS OF F.A.                                                                         0.1308                                                    TAURINE              0.08300                                                   VITAMIN E ACETATE    0.05659                                                   ASCORBIC ACID        0.05072                                                   L-CARNITINE          0.04150                                                   BIOTIN               0.01761                                                   ZINC SULFATE         0.01572                                                   FERROUS SULFATE      0.01404                                                   NIACINAMIDE          0.01199                                                   VITAMIN A PALMITATE  0.01006                                                   CALCIUM PANTOTHENATE 0.006749                                                  CYANOCOBALAMIN       0.003668                                                  COPPER GLUCONATE     0.003668                                                  MANGANESE SULFATE    0.002369                                                  FOLIC ACID           0.002348                                                  VITAMIN K            0.002306                                                  VITAMIN D            0.001761                                                  PYRIDOXINE HYDROCHLORIDE                                                                            0.001467                                                  POTASSIUM IODIDE     0.001149                                                  RIBOFLAVIN           0.001048                                                  THIAMIN HYDROCHLORIDE                                                                               0.000950                                                  CHROMIC ACETATE      0.000179                                                  SODIUM MOLYBDATE     0.000159                                                  SODIUM SELENITE      0.000055                                                  ______________________________________                                    

The following examples are presented to demonstrate the present invention. The examples are intended to be illustrative and not limitative. The present invention includes the embodiments described and exemplified and equivalent embodiments.

EXAMPLE I

A composition within the scope of the present invention was prepared as follows:

A Fat Base composition was prepared having the following composition:

    ______________________________________                                         Ingredient       (Wt %)                                                        ______________________________________                                         maltodextrin     36.3000                                                       modified starch  37.5000                                                       soybean oil      24.9000                                                       polyglycerol ester                                                                               1.3000                                                       ______________________________________                                    

The Fat Base was prepared by:

1) Dissolving polyglycerol ester in warm deionized water;

2) Adding the solution from step 1 to a kettle containing 40 lbs. cold deionized water;

3) Adding maltodextrin and modified starch to the kettle, mixing well, and heating to 165° F.;

4) When maltodextrin, modified starch and emulsifier blend reach 165° F., add soybean oil and homogenize at 500 PSI second stage, 3000 PSI total.

5) Spray drying the product under the following conditions:

INLET 350°-435° F.

OUTLET 180°-220° F.

PRESSURE 1200°-2200 PSI

PRODUCT TEMPERATURE 150° F.

An Amino Acid Premix was prepared having the following composition:

    ______________________________________                                         Ingredient       Wt. %                                                         ______________________________________                                         L-glutamine      20.6609                                                       L-leucine        13.9461                                                       L-arginine acetate                                                                              13.8887                                                       L-lysine acetate 8.1381                                                        L-isoleucine     6.9731                                                        L-valine         6.9731                                                        L-phenylalanine  5.9033                                                        L-methionine     5.0734                                                        L-threonine      3.8957                                                        L-tyrosine       2.5023                                                        L-histidine HCL  2.4793                                                        L-aspartic acid  2.2957                                                        L-proline        2.1235                                                        L-tryptophan     1.4164                                                        L-serine         1.1823                                                        L-alanine        1.0606                                                        glycine          1.0330                                                        taurine          0.4545                                                        ______________________________________                                    

A Vitamin/Mineral Premix was prepared having the following composition:

    ______________________________________                                         Ingredient         Wt. %                                                       ______________________________________                                         magnesium gluconate                                                                               37.1184                                                     calcium glycerophosphate                                                                          26.9952                                                     potassium chloride 11.6979                                                     sodium citrate     9.4483                                                      trace mineral premix*                                                                             4.9576                                                      potassium sorbate  3.1494                                                      maltodextrin       2.2496                                                      ascorbic acid      1.0888                                                      vitamin E acetate  1.2148                                                      biotin             0.3779                                                      zinc sulfate       0.3374                                                      ferrous sulfate    0.3014                                                      niacinamide B3     0.2574                                                      vitamin A palmitate                                                                               0.2160                                                      calcium pantothenate                                                                              0.1449                                                      cyanocobalamin B12 0.0787                                                      copper gluconate   0.0787                                                      manganese sulfate  0.0508                                                      folic acid         0.0504                                                      vitamin K          0.0495                                                      vitamin D          0.0378                                                      pridoxine hydrochloride                                                                           0.0315                                                      potassium iodide   0.0247                                                      riboflavin         0.0225                                                      thiamin hydrochloride                                                                             0.0204                                                      ______________________________________                                          *The trace mineral premix comprised 99.8295% maldodextrin, 0.0776% chroni      acetate, 0.0690% sodium molybdate and 0.0239% sodium selenite.           

The following procedure was utilized in preparing the composition of the invention:

    ______________________________________                                         INGREDIENT             Wt. %                                                   ______________________________________                                         MALTODEXTRIN           65.33                                                   AMINO ACID PREMIX      18.26                                                   FAT BASE               10.06                                                   VITAMIN/MINERAL PREMIX 4.659                                                   CITRIC ACID            0.7756                                                  POTASSIUM CITRATE      0.3668                                                  SODIUM PHOSPHATE DIBASIC                                                                              0.2851                                                  CHOLINE BITARTRATE     0.2154                                                  L-CARNITINE             0.04150                                                ______________________________________                                    

Add 40.0 grams of maltodextrin to a mixer. Add 18.26 grams of the Amino Acid Premix and 4.659 grams of the Vitamin/Mineral Premix to the mixer. Blend the following ingredients for ten minutes and add to the mixer:

    ______________________________________                                         MALTODEXTRIN             5.33 GMS                                              CHOLINE BITARTRATE       0.215 GMS                                             POTASSIUM CITRATE        0.367 GMS                                             CITRIC ACID              0.776 GMS                                             L-CARNITINE              0.042 GMS                                             SODIUM PHOSPHATE DIBASIC 0.285 GMS                                             ______________________________________                                    

Add 10.06 grams of the Fat Base and 20.00 grams of maltodextrin to the mixer and mix for 10 minutes. 

We claim:
 1. An enteral nutritional composition comprising, based on total caloric content of said composition,a) from 4% to 30% lipid component, b) from 65% to 80% carbohydrate component, and c) from 16% to 25% protein component, wherein said composition has a nonprotein calorie to grams of nitrogen ratio ranging from 150:1 to 80:1, and has the following formulation by solid weight:

    ______________________________________                                         Ingredient               Wt %                                                  ______________________________________                                         maltodextrin             69.32                                                 L-glutamine              3.773                                                 modified food starch     3.773                                                 L-leucine                2.547                                                 L-arginine acetate       2.536                                                 soybean oil              2.505                                                 magnesium gluconate      1.729                                                 L-lysine acetate         1.486                                                 L-valine                 2.374                                                 L-isoleucine             1.273                                                 calcium glycerophosphate 1.258                                                 L-phenylalanine          1.078                                                 L-methionine             0.9265                                                citric acid              0.7755                                                L-threonine              0.7114                                                potassium chloride       0.5450                                                L-tyrosine               0.4569                                                L-histidine monohydrochloride                                                                           0.4528                                                sodium citrate           0.4402                                                L-aspartic acid          0.4192                                                L-proline                0.3878                                                potassium citrate        0.3668                                                sodium phosphate dibasic 0.2851                                                L-tryptophan             0.2587                                                L-serine                 0.2159                                                choline bitartrate       0.2154                                                L-alanine                0.1937                                                glycine                  0.1886                                                potassium sorbate        0.1467                                                polyglycerol esters of fatty acids                                                                      0.1308                                                taurine                  0.08300                                               vitamin E acetate        0.05659                                               ascorbic acid            0.05072                                               L-carnitine              0.04150                                               biotin                   0.01761                                               zinc sulfate             0.01572                                               ferrous sulfate          0.01404                                               niacinamide              0.01199                                               vitamin A palmitate      0.01006                                               calcium pantothenate     0.006749                                              cyanocobalamin           0.003668                                              copper gluconate         0.003668                                              manganese sulfate        0.002369                                              folic acid               0.002348                                              vitamin K                0.002306                                              vitamin D                0.001761                                              pyridoxine hydrochloride 0.001467                                              potassium iodide         0.001149                                              riboflavin               0.001048                                              thiamin hydrochloride    0.000950                                              chromic acetate          0.000179                                              sodium molybdate         0.000159                                              sodium selenite          0.000055.                                             ______________________________________                                     